Centralized dispatching of application analytics

ABSTRACT

A method may include, in a computing device comprising at least one processor and a memory, generating at least one information beacon from each of a plurality of applications installed on the computing device. Each information beacon may include application analytics data associated with a corresponding application while the corresponding application is running on the computing device. The at least one information beacon from each of the plurality of applications may be stored in a common location in the computing device. The stored at least one information beacon may be dispatched from each of the plurality of applications to a network device communicatively coupled to the computing device. The generating may be triggered by beacon generation code implemented in each of the plurality of applications installed on the computing device.

CROSS-REFERENCE TO RELATED APPLICATIONS/INCORPORATION BY REFERENCE

This application makes reference to and claims priority to U.S.Provisional Application Ser. No. 61/729,714, filed on Nov. 26, 2012,entitled “CENTRALIZED DISPATCHING OF APPLICATION ANALYTICS,” which isincorporated herein by reference in its entirety.

BACKGROUND

Application analytics data is an important component to softwaredevelopers of applications for computing devices (e.g., smart phones,mobile phones, tablets and/or other mobile devices). However, generationand communication of such analytics data may be challenging sincecomputing devices usually have numerous installed applications.Consequently, a substantial amount of analytics data is generated atdifferent times, and communication of such data may be sporadic (due tolack of connectivity) and may also utilize a significant portion of thedevice battery resources.

Further limitations and disadvantages of conventional and traditionalapproaches will become apparent to one of skill in the art, throughcomparison of such approaches with some aspects of the present methodand apparatus set forth in the remainder of this disclosure withreference to the drawings.

SUMMARY

A system and/or method is provided for centralized dispatching ofapplication analytics, substantially as shown in and/or described inconnection with at least one of the figures, as set forth morecompletely in the claims.

In accordance with an example embodiment of the disclosure, a method mayinclude, in a computing device comprising at least one processor and amemory, generating at least one information beacon from each of aplurality of applications installed on the computing device. Eachinformation beacon may include application analytics data associatedwith a corresponding application while the corresponding application isrunning on the computing device. The at least one information beaconfrom each of the plurality of applications may be stored in a commonlocation in the computing device. The stored at least one informationbeacon may be dispatched from each of the plurality of applications to anetwork device communicatively coupled to the computing device.

In accordance with another example embodiment of the disclosure, amethod may include, in a network device communicatively coupled to acomputing device, the computing device comprising a plurality ofinstalled applications, receiving, from the computing device, aplurality of information beacons generated from at least a portion ofthe plurality of installed applications. Communication of the pluralityof information beacons may be triggered by the network device based on apre-determined schedule. At least one application analytics reportassociated with usage of at least the portion of the plurality ofinstalled applications by a user of the computing device, may begenerated based on the received plurality of information beacons.

These and other advantages, aspects and features of the presentdisclosure, as well as details of illustrated implementation(s) thereof,will be more fully understood from the following description anddrawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram illustrating an example analytics dispatchingarchitecture, in accordance with an embodiment of the disclosure.

FIG. 2 is a block diagram illustrating beacon processing functionalitiesof the analytics dispatching architecture of FIG. 1, in accordance withan embodiment of the disclosure.

FIG. 3 is a flow chart illustrating example steps of a method forcentralized dispatching of application analytics, in accordance with anembodiment of the disclosure.

FIG. 4 is a flow chart illustrating example steps of another method forcentralized dispatching of application analytics, in accordance with anembodiment of the disclosure.

DETAILED DESCRIPTION

As utilized herein the terms “circuits” and “circuitry” refer tophysical electronic components (i.e. hardware) and any software and/orfirmware (“code”) which may configure the hardware, be executed by thehardware, and or otherwise be associated with the hardware. As utilizedherein, “and/or” means any one or more of the items in the list joinedby “and/or”. As an example, “x and/or y” means any element of thethree-element set {(x), (y), (x, y)}. As another example, “x, y, and/orz” means any element of the seven-element set {(x), (y), (z), (x, y),(x, z), (y, z), (x, y, z)}. As utilized herein, the term “e.g.,”introduces a list of one or more non-limiting examples, instances, orillustrations. As utilized herein, the term “processor” may be used torefer to one or more of a central processing unit, a processor of asymmetric or asymmetric multiprocessor system, a digital signalprocessor, a micro-controller, a graphics/video processor, or anothertype of processor.

As used herein, the term “information beacon” or “beacon” may refer to adata block or structure, which may be generated at various points whilean application is being executed (or running) on a device, to provideapplication-related analytics (e.g., a beacon may indicate a user'sinteraction with the application user interface (UI), including UIwidgets such as buttons on the screen, tabs, textboxes, etc., as well asuser interactions with physical buttons). Put another way, a beacon mayindicate which part of an application was/is being used, and/or it mayindicate a user's interaction with the application (e.g., pressing abutton, selecting a tab or a menu, etc.), and/or results achieved whilethe application is running (e.g., finishing a game level), and/orexperimentation information, and/or timing information related to theapplication. Furthermore, a beacon also indicates the type of device (orother identifying information of the device the application is runningon) and identifying information about the operating system running onthe device. In this regard, information beacons may be used in varioustypes of applications, such as e-commerce, timing applications, socialapplications, and others.

The present disclosure relates to a method and system for centralizeddispatching of application analytics. In various implementations, anapplication developer may implement within an application (e.g., byusing a software development kit) code for generating analyticinformation beacons. Such information beacons may be generated atvarious points of the application to provide application-relatedanalytics (as described in the term definition herein above). Thebeacon-generating code may be used in a plurality of applicationsinstalled on a computing device.

After one or more beacons are generated from any of the applicationsrunning the beacon-generation code, the generated beacons may be storedin a common location within the computing device (e.g., a commondatabase). The stored beacons may be dispatched to, for example, ananalysis server for further processing and generating of applicationanalytics reports based on the beacons. In this regard, instead ofhaving each application separately manage communication of its ownbeacons (which may be sporadic due to network connectivity issues whilethe computing device is moving and may also drain the device batteryfast), all beacons from all applications are consolidated in onelocation (e.g., a database within the computing device). All beacons maythen be communicated to the analysis server in one transmission, whichwill help preserve the device battery life.

FIG. 1 is a block diagram illustrating an example analytics dispatchingarchitecture, in accordance with an embodiment of the disclosure.Referring to FIG. 1, the example architecture 10 may comprise acomputing device 100 and an analysis server 130.

The computing device 100 may include a handset, a smartphone, a tablet,a laptop, and/or another handheld or portable device. The computingdevice 100 may comprise, for example, a main processor 102, a systemmemory 104, a beacon database 105, a communication subsystem 106, asensory subsystem 108, an input/output (I/O) subsystem 110, and adisplay 120. The computing device may also comprise an operating system112, and one or more applications 116, . . . , 118 running on thecomputing device 100. The operating system 112 may comprise a beaconservice 114. The applications 116, . . . , 118 may comprise SDK modules116 a, . . . , 118 a and beacons 116 b, . . . , 118 b, respectively.

The analysis server may comprise a main processor 132, a system memory134, a communication subsystem 136, and an application analyticsprocessor 138 (further description of the application analyticsprocessor 138 is disclosed herein below in reference to FIG. 2).

The main processor 102 may comprise suitable logic, circuitry,interfaces, and/or code that may be operable to process data, and/orcontrol and/or manage operations of the computing device 100, and/ortasks and/or applications performed therein in connection with beacongeneration and beacon communication functionalities of the computingdevice 100. In this regard, the main processor 102 may be operable toconfigure and/or control operations of various components and/orsubsystems of the computing device 100, by utilizing, for example, oneor more control signals. The main processor 102 enables running and/orexecution of applications, programs and/or code (e.g., the beaconservice 114 and/or any of the SDKs 116 a, . . . , 118 a), which may bestored, for example, in the system memory 104. Alternatively, one ormore dedicated application processors may be utilized for running and/orexecuting applications (or programs) (e.g., the beacon service 114and/or any of the SDKs 116 a, . . . , 118 a) in the computing device100.

In some instances, one or more of the applications 116, . . . , 118running and/or executing on the computing device 100 may generate and/orupdate video content that may be rendered via the display 120.Additionally, during execution of one or more of the applications 116, .. . , 118, corresponding SDKs 116 a, . . . , 118 a may cause generationof information beacons 116 b, . . . , 118 b, respectively, whenever thebeacon generating code of the SDKs is called (executed) during executionof the corresponding application. Each of the information beacons 116 b,. . . , 118 b may comprise analytics information related to itscorresponding application (e.g., a beacon may include one or more ofdata identifying an application accessed on the computing device; dataidentifying data and time an application was accessed on the computingdevice; for each application running on the computing device, dataidentifying at least one application segment accessed while theapplication was running; data identifying characteristics of one or bothof the computing device and the operating system used by the computingdevice; and/or data identifying one or more buttons pushed by a userwhile an application is running on the computing device.

The system memory 104 may comprise suitable logic, circuitry,interfaces, and/or code that may enable permanent and/or non-permanentstorage, buffering, and/or fetching of data, code and/or otherinformation, which may be used, consumed, and/or processed. In thisregard, the system memory 104 may comprise different memorytechnologies, including, for example, read-only memory (ROM), randomaccess memory (RAM), Flash memory, solid-state drive (SSD), and/orfield-programmable gate array (FPGA). The system memory 104 may store,for example, configuration data, which may comprise parameters and/orcode, comprising software and/or firmware (e.g., the operating system112, the update initiators 122 and/or the one or more applications 116,. . . , 118).

The communication subsystem 106 may comprise suitable logic, circuitry,interfaces, and/or code operable to communicate data from and/or to thecomputing device, such as via one or more wired and/or wirelessconnections 107. The communication subsystem 106 may be configured tosupport one or more wired protocols (e.g., Ethernet standards, MOCA,etc.) and/or wireless protocols or interfaces (e.g., CDMA, WCDMA, TDMA,GSM, GPRS, UMTS, EDGE, EGPRS, OFDM, TD-SCDMA, HSDPA, LTE, WiMAX, WiFi,Bluetooth, and/or any other available wireless protocol/interface),facilitating transmission and/or reception of signals to and/or from thecomputing device 100, and/or processing of transmitted or receivedsignals in accordance with applicable wired or wireless protocols. Inthis regard, signal processing operations may comprise filtering,amplification, analog-to-digital conversion and/or digital-to-analogconversion, up-conversion/down-conversion of baseband signals,encoding/decoding, encryption/decryption, and/ormodulation/demodulation. In accordance with an embodiment of thedisclosure, the communication subsystem 106 may provide wired and/orwireless connections to, for example, the analysis server 130 via thewired and/or wireless connections 107.

The sensory subsystem 108 may comprise suitable logic, circuitry,interfaces, and/or code for obtaining and/or generating sensoryinformation, which may relate to the computing device 100, its user(s),and/or its environment. For example, the sensory subsystem 108 maycomprise positional or locational sensors (e.g., GPS or other GNSS basedsensors), ambient conditions (e.g., temperature, humidity, or light)sensors, and/or motion related sensors (e.g., accelerometer, gyroscope,pedometers, and/or altimeters).

The I/O subsystem 110 may comprise suitable logic, circuitry,interfaces, and/or code for enabling user interactions with thecomputing device 100, enabling obtaining input from user(s) and/or toproviding output to the user(s). The I/O subsystem 110 may supportvarious types of inputs and/or outputs, including, for example, video,audio, and/or textual. In this regard, dedicated I/O devices and/orcomponents, external to or integrated within the computing device 100,may be utilized for inputting and/or outputting data during operationsof the I/O subsystem 110. Exemplary I/O devices may comprise displays,mice, keyboards, touchscreens, voice input interfaces, and otherinput/output interfaces or devices. With respect to video outputs, theI/O subsystem 110 may be operable to generate and/or process videocontent, graphics, and/or textual data, and/or generate video framesbased thereon for display, via the display 120 for example.

The display 120 may comprise suitable logic, circuitry, interfacesand/or code that may enable displaying of video content, which may behandled and/or processed via the I/O subsystem 110. The display 120 maybe used in outputting video data.

The operating system 112 may include software that is used to manage thevarious hardware resources of the computing device 100. The operatingsystem 112 may also be used to provide common services to computerprograms or applications, such as the one or more applications 116, . .. , 118. The operating system 112 may act as an intermediary between thehardware components and the one or more applications 116, . . . , 118.In some implementations, the operating system 112 may provide a beaconservice 114.

The beacon service 114 may comprise code and may be operable to provideservices related to generation and management of the beacons 116 b, . .. , 118 b. For example, the beacon service 114 may implement a beacondispatch policy (e.g., 204 in FIG. 2). A beacon collection policy (e.g.,202 in FIG. 2) may cause collection of the beacons 116 b, . . . , 118 bat a pre-determined interval or schedule. The collected beacons may bestored in, for example, the beacon database 105 (which may be a separatemodule within the device 100 or may be implemented as part of the systemmemory 104). The beacon collection may be initiated by the processor 102and/or by the corresponding beacon-generating application and/or by theanalysis server 130.

The beacon dispatch policy (e.g., 204 in FIG. 2) may cause dispatchingof the collected beacons 116 b, . . . , 118 b from the beacon database105 to the analysis server 130 at a pre-determined time interval orschedule. Additionally, the beacon dispatch policy may be operable tocontrol not only the timing of the dispatch, but also the amount(volume) of each dispatch, dispatch compression/encryption, etc. Forexample, the beacon dispatch policy may set the dispatch frequency, howmany beacons are in each dispatch, whether the dispatch should becompressed and/or encrypted, etc.

The beacon dispatch module 204 may comprise suitable circuitry, logicand/or code and may be operable to implement one or more rules (e.g., apolicy) used for dispatching of the collected beacons 116 b, . . . , 118b from the beacon database 105 to the analysis server 130 at apre-determined time interval or schedule. Additionally, the beacondispatch policy (of the beacon dispatch module 204) may be operable tocontrol not only the timing of the dispatch, but also the amount(volume) of each dispatch, dispatch compression/encryption, etc. Forexample, the beacon dispatch policy may set the dispatch frequency, howmany beacons are in each dispatch, whether the dispatch should becompressed and/or encrypted, etc.

Even though the beacon service 114 is illustrated as part of theoperating system 112, the present disclosure is not limiting in thisregard and the beacon service 114 may also be implemented as, forexample, a separate service application installed on the device 100.

The one or more applications 116, . . . , 118 may include one or moresoftware applications (i.e., computer programs) that may help a user ofthe computing device 100 perform a specific task. For example, asoftware application may include an interactive application thatdisplays content to a user and allows the user to provide input as tothe manner in which the content is provided and/or the type of contentthat is provided. To perform a task (e.g., web browsing, video playback,etc.), the one or more applications 116, . . . , 118 may access the CPU102, the memory 104, and/or any other circuit within the computingdevice 100, as well as the operating system 112. The applicationdeveloper of applications 116, . . . , 118 may use the beacon-generatingSDKs 116 a, . . . , 118 a at one or more points within the correspondingapplication, which may trigger the generation of beacons 116 b, . . . ,118 b based on the developer's preferences.

The analysis server 130 may comprise suitable circuitry, logic and/orcode and may be operable to receive one or more information beacons fromthe computing device 100. The CPU 132, memory 134 and communicationsubsystem 136 may perform functionalities that are similar to thefunctionalities performed by the CPU 102, memory 104, and communicationsubsystem 106, respectively. The application analytics processor 138 maycomprise suitable circuitry, logic and/or code and may be operable togenerate one or more analytics reports. Additionally, the applicationanalytics processor 138 may be operable to implement one or morepolicies with regard to beacon dispatch functionalities performed by thecomputing device 100.

In operation, one or more of the SDKs 116 a, . . . , 118 a may triggergeneration of beacons 116 b, . . . , 118 b, respectively. The beaconservice 114 may cause the generated beacons 116 b, . . . , 118 b fromapplications 116, . . . , 118 to be stored in the beacon database 105.The beacon service 114 may also cause communication of the storedbeacons from the beacon database 105 to the analysis server 130 forfurther processing.

The communication of the stored information beacons may be performedperiodically (at a pre-determined time interval or schedule), using thecommunication subsystem 106 and the wired/wireless connection 107.Additionally, communication of the stored information beacons may beperformed when other network traffic occurs between the computing device100 and the analysis server 130. In this regard, the communication ofthe beacons may utilize “already-in-use” network connection, therebyreducing battery use by not initiating a network connection only forpurposes of communicating beacons. Furthermore, communication of thestored information beacons may be performed only when a particularnetwork interface (e.g., Wi-Fi) is present. For example, the beacons maybe communicated only if a Wi-Fi connection is available, which willavoid sending data using a cell data connection (which tends to be moreexpensive). In this regard, cell data usage may be reduced, potentiallylowering a user's cost on a data metered plan.

After the information beacons are received by the analysis server 130,the application analytics processor may generate one or more applicationanalytics report based on the received beacons.

FIG. 2 is a block diagram illustrating beacon processing functionalitiesof the analytics dispatching architecture of FIG. 1, in accordance withan embodiment of the disclosure. Referring to FIG. 2, the applicationanalytics processor 138 may comprise a beacon collection module 202 andanalytics report generation module 206. The computing device 100 maycomprise a beacon dispatch module 204, which may be implemented as partof the operating system 112 or as a stand-alone application.

The beacon collection module 202 may comprise suitable circuitry, logicand/or code and may be operable to implement one or more rules (e.g., apolicy) used for collection of the beacons 116 b, . . . , 118 b (e.g.,the policy may set collection of the beacons 116 b, . . . , 118 b at apre-determined interval or schedule). The collected beacons may bestored in, for example, the beacon database 105 (which may be a separatemodule within the device 100 or may be implemented as part of the systemmemory 104).

The analytics report generation module 206 may comprise suitablecircuitry, logic and/or code and may be operable to generate one or moreanalytics reports based on beacons received from the computing device100.

Even though the beacon collection module 202 is illustrated as part ofthe application analytics processor 138, the present disclosure is notlimiting in this regard. In accordance with an example embodiment of thedisclosure, the beacon collection module 202 may also be implementedwithin the computing device 100 (e.g., as part of the operating system112 or as stand-alone applications running on the device 100. In thisregard, beacon collection and/or beacon dispatch may be initiated and/orcontrolled by the analysis server 130 or the computing device 100.

FIG. 3 is a flow chart illustrating example steps of a method forcentralized dispatching of application analytics, in accordance with anembodiment of the disclosure. Referring to FIGS. 1-3, the example method300 may start at 302, when, in a computing device (100) comprising atleast one processor (102) and a memory (104; 105), at least oneinformation beacon (116 b, . . . , 118 b) may be generated from each ofa plurality of applications (116, . . . , 118) installed on thecomputing device (100). Each information beacon (116 b, . . . , 118 b)may include application analytics data associated with a correspondingapplication while the corresponding application is running on thecomputing device. At 304, the at least one information beacon from eachof the plurality of applications may be stored in a common location(e.g., beacon database 105) in the computing device (100). At 306, thestored at least one information beacon (116 b, . . . , 118 b) may bedispatched to a network device (e.g., analysis server 130)communicatively coupled to the computing device.

The generating of the beacons 116 b, . . . , 118 b may be triggered bybeacon generation code (e.g., SDKs 116 a, . . . , 116 b) implemented ineach of the plurality of applications 116, . . . , 118 installed on thecomputing device 100. The application analytics data of the beacons 116b, . . . , 118 b may include one or more of data identifying anapplication accessed on the computing device; data identifying data andtime an application was accessed on the computing device; for eachapplication running on the computing device, data identifying at leastone application segment accessed while the application was running; dataidentifying characteristics of one or both of the computing device andthe operating system used by the computing device; data identifying oneor more buttons pushed by a user while an application is running on thecomputing device; data identifying one or more user interactions with anapplication running on the computing device; and/or data identifying(application) results achieved while an application is running on thedevice (additional clarification on data provided by the beacons isreferenced herein above in the definition of “beacon”).

The at least one information beacon 116 b, . . . , 118 b from each ofthe plurality of applications 116, . . . , 118 may be stored in a commondatabase (e.g., beacon database 105) in the computing device 100. Thecommon database (105) may be accessible by each of the plurality ofapplications 116, . . . , 118. The dispatching of the stored at leastone information beacon from each of the plurality of applications may bebased on a pre-determined schedule maintained by one or both of thecomputing device 100 and/or the network device (e.g., analysis server130).

FIG. 4 is a flow chart illustrating example steps of another method forcentralized dispatching of application analytics, in accordance with anembodiment of the disclosure. Referring to FIGS. 1-2 and 4, the examplemethod 400 may start at 402, when a beacon collection instruction (e.g.,from the beacon collection module 202) may be communicated from theanalysis server 130 to a computing device 100. The computing device 100may include a plurality of installed applications (116, . . . , 118).The beacon collection instruction may causing collection of theplurality of information beacons (e.g., 116 b, . . . , 118 b) from theat least a portion of the plurality of installed applications (116, . .. , 118), and storing the collected plurality of information beacons ina database (e.g., beacon database 105) within the computing device 100.

At 402, a plurality of information beacons (116 b, . . . , 118 b)generated from at least a portion of the plurality of installedapplications (116, . . . , 118) may be received from the computingdevice 100. Communication of the plurality of information beacons may betriggered by the network device (e.g., 130) based on a pre-determinedschedule (e.g., schedule or policy set by the beacon dispatch module204). At 406, at least one application analytics report may be generated(e.g., by the analytic report generation module 206). The applicationanalytics report may be associated with usage of at least the portion ofthe plurality of installed applications by a user of the computingdevice, based on the received plurality of information beacons.

Other implementations may provide a non-transitory computer readablemedium and/or storage medium, and/or a non-transitory machine readablemedium and/or storage medium, having stored thereon, a machine codeand/or a computer program having at least one code section executable bya machine and/or a computer, thereby causing the machine and/or computerto perform the steps as described herein for centralized dispatching ofapplication analytics.

Accordingly, the present method and/or system may be realized inhardware, software, or a combination of hardware and software. Thepresent method and/or system may be realized in a centralized fashion inat least one computer system, or in a distributed fashion wheredifferent elements are spread across several interconnected computersystems. Any kind of computer system or other system adapted forcarrying out the methods described herein is suited. A typicalcombination of hardware and software may be a general-purpose computersystem with a computer program that, when being loaded and executed,controls the computer system such that it carries out the methodsdescribed herein.

The present method and/or system may also be embedded in a computerprogram product, which comprises all the features enabling theimplementation of the methods described herein, and which when loaded ina computer system is able to carry out these methods. Computer programin the present context means any expression, in any language, code ornotation, of a set of instructions intended to cause a system having aninformation processing capability to perform a particular functioneither directly or after either or both of the following: a) conversionto another language, code or notation; b) reproduction in a differentmaterial form.

While the present method and/or apparatus has been described withreference to certain implementations, it will be understood by thoseskilled in the art that various changes may be made and equivalents maybe substituted without departing from the scope of the present methodand/or apparatus. In addition, many modifications may be made to adapt aparticular situation or material to the teachings of the presentdisclosure without departing from its scope. Therefore, it is intendedthat the present method and/or apparatus not be limited to theparticular implementations disclosed, but that the present method and/orapparatus will include all implementations falling within the scope ofthe appended claims.

What is claimed is:
 1. A mobile computing device, comprising: a memoryconfigured to store applications and beacon service code; a beacondatabase configured to store, according to a beacon collection policy,information beacons; a communication subsystem configured to provide atleast one of a wired or wireless connection to an analysis server; and aprocessor configured to operate, concurrently, the applications and thebeacon service code, the applications configured to generate,concurrently, the information beacons, the information beaconsconfigured to provide analytics data about the applications while theapplications are operating, the beacon service code configured toimplement a beacon dispatch policy to dispatch, in a singletransmission, the information beacons to the analysis server.
 2. Themobile computing device of claim 1, wherein the processor is a mainprocessor.
 3. The mobile computing device of claim 1, wherein theprocessor is at least one application processor.
 4. The mobile computingdevice of claim 1, wherein the beacon service code is a part of anoperating system.
 5. The mobile computing device of claim 1, wherein thebeacon service code is a service application separate from an operatingsystem.
 6. The mobile computing device of claim 1, wherein the analyticsdata comprises at least one of data that identifies a correspondingapplication, data that identifies a date and time that the correspondingapplication was accessed, data that identifies at least one applicationsegment, of the corresponding application, that was accessed, data thatidentifies at least one characteristic of the mobile computing device,data that identifies at least one characteristic of an operating systemof the mobile computing device, or data that identifies at least onebutton activated by a user while the corresponding application isrunning on the mobile computing device.
 7. The mobile computing deviceof claim 1, wherein the beacon database is implemented in the memory. 8.The mobile computing device of claim 1, wherein the beacon database isimplemented in a module separate from the memory.
 9. The mobilecomputing device of claim 1, wherein the mobile computing device isconfigured to implement beacon collection in response to a signalreceived from the analysis server.
 10. The mobile computing device ofclaim 1, wherein the mobile computing device is configured to implementbeacon dispatch in response to a signal received from the analysisserver.
 11. The mobile computing device of claim 1, wherein the beacondispatch policy is configured to control at least one of a frequency ofthe single transmission, a number of the information beacons included inthe single transmission, a compression of the single transmission, or anencryption of the single transmission.
 12. The mobile computing deviceof claim 1, wherein the applications include software development kits,the software development kits configured to generate the informationbeacons.
 13. A non-transitory computer-readable medium storing computercode for controlling a processor to cause the processor to dispatchinformation beacons, the computer code including instructions to causethe processor to: generate, by a first application, a first informationbeacon that provides application analytics data describing use of thefirst application installed on a mobile computing device while the firstapplication is running on the mobile computing device; generate,concurrently with the first information beacon and by a secondapplication that is running concurrently with the first application, asecond information beacon that provides application analytics datadescribing use of the second application running on the mobile computingdevice while the first application is running on the mobile computingdevice; collect the first information beacon and second informationbeacon according to a beacon collection policy that stores the firstinformation beacon and second information beacon in a common location inthe mobile computing device; and dispatch the first information beaconand the second information beacon, according to a beacon dispatch policymaintained by the mobile computing device, to a network devicecommunicatively coupled to the mobile computing device in a singletransmission.
 14. The non-transitory computer-readable medium of claim13, wherein the analytics data describing use of the first applicationor the second application comprises one or more of: an indication of anapplication accessed on the mobile computing device; an indication ofdate and time an application was accessed on the mobile computingdevice; an indication of characteristics of one or both of the mobilecomputing device and the operating system used by the mobile computingdevice; an indication of one or more buttons pushed by a user while thefirst application or the second application is running on the mobilecomputing device; or an indication of one or more user interactions withthe first application or the second application running on the mobilecomputing device.
 15. The non-transitory computer-readable medium ofclaim 13, wherein the computer code including the instructions to causethe processor to generate the first information beacon and to generatethe second information beacon is configured to be triggered by beacongeneration code implemented in each of the first application and thesecond application installed on the mobile computing device.
 16. Thenon-transitory computer-readable medium of claim 13, wherein thecomputer code including the instructions to cause the processor todispatch the first information beacon and second information beacon isbased on a pre-determined schedule maintained by one or both of themobile computing device and the network device according to the beaconcollection policy.
 17. The non-transitory computer-readable medium ofclaim 13, wherein the first information beacon and the secondinformation beacon are collected simultaneously.